Use the proposed wastes with specific sorption properties in process stabilisation of dangerous waste elements. processing/optimising of waste stabilisation methodology using the encapsulation process and chemical sorption.

Verification of the possibility of using bed and fly ash from fluidised bed coal combustion and steel manufacturing in agriculture, landscape creation, highway construction and for the production of slag cements.

Development of a hot filter for energogas made by gasification of refused derived fuel (rdf). This hot filter will clean the energogas from high molecular pyrolysis products, sulphur, chlorine and fluorine compounds.

Providing the tools needed by water bio-treatment designers and operators to manage tailor-made innovations in order to create more efficient wastewater treatment processes to remove very complex and rare mixtures of organic water contaminants.

Application of a safe and reliable technology to destroy dioxins and furans contained in off-gas from municipal solid waste incinerators, based on catalytic filtration and design optimisation of the off-gas cleaning system and operation parameters.

Solving the problem of utilising waste materials, such as slag and fly-ash mixtures, stable sewage sludge and other wastes, in the production of artificial soil suitable for land reclamation and remediation of ash deposit sites.

The project consists of the integration of different technologies (dangerous substance detectors, vision systems, telematics, etc.) Into a single system able to provide an effective tool for preventing terrorist attacks in metro facilities.

Raising the productivity and competitiveness of European businesses through technology. Boosting national economies on the international market, and strengthening the basis for sustainable prosperity and employment.